KR101893670B1 - Switchgear - Google Patents

Abstract

The switchgear according to the present invention is characterized by comprising an intake mechanism attachment body disposed in an intake section provided in a case, an intake port provided in the intake mechanism attachment body, and an air intake port provided on the inner side of the intake port, And a check valve type shutter which is disposed between the check valve type shutter and the conductive portion in the case and at least one side length is smaller than the length of the check valve type valve, And a grounding partition body longer than the shutter.

Description

Switchgear {SWITCHGEAR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a metal enclosed switchgear in which electric power devices such as a breaker are accommodated. Especially, since a current rating is large, an air supply / exhaust port And a structure of a suction port portion of the provided switchgear.

The large current capacity rating of the metal closed switchgear is due to the joule heat generated by the energization of the main circuit conductor and the induction of the structure around the conductor, The temperature and the surrounding air temperature rise. In order to suppress the temperature rise to a certain level, the outside air around the switchgear is received and the internal air temperature is lowered by convection inside the switchgear. An air inlet is provided at a relatively low position of the back surface or the front surface of the switchgear and an exhaust port is provided at the ceiling portion in order to keep the conductors and the like at a constant temperature or lower. It is general to adopt a structure in which ventilation efficiency is improved by utilizing the head difference of the intake and exhaust port.

In the operation of the switchgear, it is very rare. However, there are cases where an electric accident occurs in the main circuit inside the switchge due to various causes. In the event of an electric accident, an arc is generated at the portion, and the arc energy causes a sudden increase in internal pressure and a high-temperature and high-pressure gas.

In the case of a conventional metal enclosed switchgear having a relatively small current rating, generally, there is no provision of an intake / exhaust port for ventilation. Therefore, when a high temperature and high pressure gas is generated inside the switchgear, The high-temperature and high-pressure gas is discharged outside the plate only by opening the pressure-bearing plate. However, in the case of a switchgear rated at a high current, not only the pressure port of the ceiling portion and the vent portion for ventilation but also the high temperature gas are ejected from the intake port provided on the rear surface or the front surface of the switchgear.

The hot gas from the ventilation vent at the ceiling portion of the switchgear at the time of an accident originally has a pressure port at the time of the accident so that it can be ejected from there. It is necessary to suppress the ejection of the hot gas.

For this reason, for example, in Patent Documents 1 and 2, a check valve type shutter provided at an intake port portion due to an abnormal internal pressure rise at the time of an accident of a switchgear moves along with an increase in internal pressure So that the intake port is closed from the inside. As a result, the high-temperature, high-pressure gas reversely flows through the air passage to prevent the discharge of the high-temperature high-pressure gas to the surroundings of the switchgear.

Patent Document 1: Japanese Patent No. 4937350 Patent Document 2: Japanese Patent No. 5017003

In the above-described conventional switchgear, it is generally known that the arc generated in the switchgever shifts from the power source side to the load side. The generated arc is elongated and grounded by the ground metal inside the switchgear. 5 and Fig. 6, if an arc, which runs in a path other than the staggered passage, causes a ground fault at the point 19 shown in Fig. 5 via the check valve shutter 14, As shown in Fig. 6, by the influence of the magnetic field 21 generated by the ground fault current 20 caused by the arc and the ground fault current 20, by the Fleming left hand rule, the check valve shutter 14 The force 22 in the shutter opening direction acts. The check valve shutter 14 can not perform the original closing operation due to the influence of the force 22 in the shutter opening direction and it is not possible to close the inlet port 13 so that the check valve shutter 14 is opened There is a concern. Therefore, the distance from the charging portion (charging portion) in the switch gear to the check valve shutter 14 must be ensured, and the size of the switch gear is increased.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to reduce the influence of an arc so that the shutter of the check valve type shutter, which is the original purpose of the check valve type shutter, The present invention provides a switchgear which improves the reliability of a function of preventing high-temperature, high-pressure gas caused by an accident from flowing out of the intake port to the outside of the switchgear.

A switchgear according to the present invention is a switchgear comprising: an intake mechanism mounting body disposed in an intake portion provided in a case; an intake port provided in the intake mechanism mounting body; A check valve type shutter that performs intake from the outside of the case and closes the intake port in the event of an internal short-circuiting accident, and a check valve type shutter that closes the check valve type shutter and the conductive portion And a grounding partition member having at least one side longer than the check valve type shutter.

The switchgear according to the present invention is characterized in that it comprises an intake mechanism mounting body disposed in an intake section provided in a case, an intake opening provided in the intake mechanism attachment body, A shutter which is arranged between the check valve type shutter and the conductive portion in the case, and at least one side length of which is smaller than the length of one side of the check valve type shutter, And a legged frame body longer than the valve-type shutter.

According to the switchgear of the present invention, it is possible to obtain a switchgear which can prevent the high-temperature high-pressure gas generated due to the internal short-circuiting of the switchgear from flowing out of the intake port to the outside of the switchgear and improve the reliability.

1 is a sectional side view showing a switch gear according to Embodiment 1 of the present invention.
2 is a perspective view showing a back side of a switchgear according to Embodiment 1 of the present invention.
3 is a perspective view showing a back side of a switchgear according to Embodiment 2 of the present invention.
4 is a perspective view showing a back side of a switchgear according to Embodiment 3 of the present invention.
5 is a perspective view showing a grounding state in a conventional switchgear.
6 is a side view showing a ground fault state in a conventional switchgear.

Embodiment 1

Hereinafter, the first embodiment of the present invention will be described with reference to Figs. 1 and 2. In the drawings, the same or equivalent members and portions are denoted by the same reference numerals. 1 is a sectional side view showing a switch gear according to Embodiment 1 of the present invention. 2 is a perspective view showing a back side of a switchgear according to Embodiment 1 of the present invention.

The internal configuration of the switchgear will be described with reference to these drawings. The inside of the case 1 made of a ground metal is partitioned into a plurality of compartments. A circuit breaker compartment (not shown), in which a drawbar-type circuit breaker 2 partitioned by a partition metal 1a and a partition wall 1b is housed, is provided at the upper end of the front side (left side in the figure) 3 is disposed on the front side of the switchgear 2. The circuit breaker 2 is capable of being drawn out from the front side of the switchgear. A top end side disconnecting part 4a and a bottom end side disconnecting part 4b of a main circuit are fixedly provided on a rear wall of the circuit breaker compartment 3 with a predetermined gap therebetween, And is detachable from a connection terminal (not shown) protruding from the back surface (right side in the drawing) of the circuit breaker 2. [ The upper part of the breaker compartment 3 is a control device compartment 5 in which a control device (not shown) is housed.

The upper part of the rear side of the circuit breaker compartment 3 is divided into three phases by a partition metal 1a and a partition wall 1c and supported by the insulator 7 of the insulator. And a branch line conductor 9 provided in correspondence with the bus line 6 are arranged in a bus line compartment 8. [ The upper end side disconnecting part 4a connected to the upper end side of the circuit breaker 2 and the bus bar 6 are connected and housed by the branch conductor 9. [ The rear and lower portions of the bus compartment 8 are a cable compartment 12 in which the cable 10 on the load side and the load side conductor 11 are accommodated. One end 10a of the cable 10 is connected to the load side conductor 11 and is connected to the lower side disconnecting part 4b connected to the lower end side of the circuit breaker 2 via the load side conductor 11, And the other end is connected to an external cable (not shown).

The case 1 is provided with a suction portion 30 for sucking air from the outside of the switch gear on the lower rear wall of the cable compartment 12 (on the lower rear wall side of the switch gear). An intake mechanism attachment body 31 is disposed in the intake section 30 provided in the case 1 and an intake port 32 formed of a plurality of slit- ). In the inside of the case 1 of the intake port 32, there is provided a check valve type valve which performs intake from the outside of the case 1 while facing the intake port 32 and closes the intake port 32 when an internal short- A shutter 33 is disposed. The open position for the intake of the check valve type shutter 33 is held by the intake position support 34. A grounding partition body 35 is disposed between the check valve type shutter 33 and the cable 10 connected to the conductive portion of the case 1, for example, the load side conductor 11.

Fig. 2 is a perspective view showing the rear side of the switchgear of Fig. 1; Fig. The grounding partition body 35 is preferably made of a conductive metal plate material so that a stray arc easily causes a ground fault. When the arc generated in the load side conductor 11 is imminent and approaches the check valve type shutter 33, the arc is grounded via the grounding partition body 35 instead of the check valve shutter 33, And the generation of the force 22 in the shutter opening direction as shown in Fig. 6 can be prevented. Therefore, if the necessary insulation distance is secured to the grounding partition member 35 and the cable 10 connected to the conductive part in the case 1, for example, the load side conductor 11, It is not necessary to secure a space over the insulation distance and the switchgear can be made compact.

The fluid resistance caused by the grounding partition body 35 affects the high pressure pressure propagation in the event of an internal short circuit and does not cause a delay in the closing operation of the check valve type shutter 33, (35) is provided with an opening (36). If the opening 36 is too large, the arced arc is not grounded via the grounding partition body 35 but is grounded via the check valve shutter 33. [ For this reason, the grounding partition body 35 is formed with an opening 36 having a size large enough to cause a ground fault by passing through a rough arc.

The internal structure of the switchgear shown in Fig. 1 is merely an example, and is not limited to the arrangement of the drawings. 1, the intake portion 30 is provided on the lower rear wall of the cable compartment 12 (on the lower rear wall side of the switchgear), but the present invention is not limited to this. For example, The lower left side (the lower front side of the switch gear) of the cable compartment 12 or the lower side of the cable compartment 12 (the lower side of the switch gear) in Fig. 1, or A configuration provided on the bottom surface of the switchgear, or a configuration other than these. In either case, the intake portion 30 for normal ventilation is provided with a high-temperature high-pressure gas in the event of an internal short-circuit failure, which faces the portion where the intake portion 30 may flow backward to the outside of the switchgear, And a grounding partition member 35 for suppressing the influence of the arc on the check valve type shutter 33 is provided to the switchgear provided with the mechanism having the check valve type shutter 33. [

As described above, according to the first embodiment, in the switchgear having the intake port 32 on the front or rear surface of the switchgear and the check valve type shutter 33 for closing the intake port 32 in case of an internal short-circuit, , The abrupt arc is grounded via the grounding partition member 35 without passing through the check valve type shutter 33. Therefore, since no arc is passed through the check valve type shutter 33, an event that the check valve type shutter 33 is opened does not occur, and compared with the above-described Patent Document 1 and Patent Document 2, The reliability of the operation of the shutter 33 is remarkably improved, and the switchgear can be made compact.

Embodiment 2 Fig.

Embodiment 2 of the present invention will be described with reference to Fig. 3 is a perspective view showing a back side of a switchgear according to Embodiment 2 of the present invention.

3 shows a structure according to a second embodiment of the present invention. In place of the grounding partition body 35 shown in Fig. 2, the grounding frame body 37 is provided with a check valve shutter 33 and a case 1), for example, the cable 10 connected to the load-side conductor 11. In this case, As shown in Fig. 3, the grounding frame body 37 is arranged in a direction orthogonal to the cable 10 extending in the vertical direction and connected to the load side conductor 11, and a plurality of grounding frame bodies 37 are provided in the vertical direction. The plurality of grounding frames (37) are arranged at intervals such that they can cause a ground fault via an arced arc.

As shown in Fig. 3, these grounding frame bodies 37 are formed in a wire shape to reduce the flow velocity resistance against propagation of the high-temperature high-pressure gas in the event of an internal short-circuit, And the grounded arc is grounded via the frame body 37 for grounding without passing through the check valve type shutter 33. As a result,

Therefore, since the check valve type shutter 33 does not pass an arc, no event occurs that the check valve type shutter 33 is opened. In comparison with the above-described Patent Document 1 and Patent Document 2, the check valve type shutter The reliability of operation of the switchgear 33 is remarkably improved, and the switchgear can be made compact.

Embodiment 3:

A third embodiment of the present invention will be described with reference to Fig. 4 is a perspective view showing a back side of a switchgear according to Embodiment 3 of the present invention.

Fig. 4 shows a structure according to a third embodiment of the present invention. In place of the grounding frame body 37 shown in Fig. 3, the grounding frame body 38 is provided with a check valve shutter 33 and a case 1), for example, the cable 10 connected to the load-side conductor 11. In this case, As shown in Fig. 4, the grounding frame member 38 is arranged in a direction that is parallel to the cable 10 extending in the vertical direction and connected to the load side conductor 11, and a plurality of grounding frame members 38 are provided in the horizontal direction. These plurality of grounding frame bodies 38 are arranged at intervals such that they can cause a ground fault via an arced arc.

As shown in Fig. 4, these grounding frame bodies 38 are formed in a streamlined shape to reduce the flow velocity resistance against the propagation of the high-temperature high-pressure gas in the event of an internal short-circuit, And the abrupt arc is grounded via the frame member 38 for grounding without passing through the check valve type shutter 33. In addition,

Therefore, since the check valve type shutter 33 does not pass an arc, no event occurs that the check valve type shutter 33 is opened. In comparison with the above-described Patent Document 1 and Patent Document 2, the check valve type shutter The reliability of operation of the switchgear 33 is remarkably improved, and the switchgear can be made compact.

In addition, since the grounding frame 38 is arranged in a direction in parallel with the cable 10 connected to the conductive portion in the case 1, for example, the load-side conductor 11, It is possible to increase the interval between the frame members 38 for grounding and improve the reliability of the operation of the check valve shutter 33 at low cost.

It is to be noted that the present invention can be freely combined with each embodiment within the scope of the invention, and each embodiment can be suitably modified or omitted.

[Industrial Availability]

INDUSTRIAL APPLICABILITY The present invention is preferable for realizing a switchgear in which reliability of the operation of the check valve type shutter is improved and compactness can be achieved.

1: Case 10: Cable
30: an intake unit 31: an intake mechanism mount
32: Intake port 33: Check valve type shutter
35: grounding partition member 36: opening
37: Grounding frame body 38: Grounding frame body

Claims (7)

An intake mechanism mounting body disposed in an intake portion provided in the case,
An intake port provided in the intake mechanism mount,
A check valve type shutter which is disposed on the inner side of the case of the inlet port and performs intake from outside the case and closes the inlet port in the event of an internal short-
And a conductive portion provided in the case, the arc-shaped arc having a conductive length and a staggered arc formed to cause a ground fault, the arc portion being disposed between the check valve shutter and the conductive portion (conductive portion) Is provided with a grounding (grounding) partition body which is longer than the check valve type shutter. The method according to claim 1,
Wherein the grounding partition body is made of a metal plate. The method according to claim 1 or 2,
Wherein the grounding partition body is provided with an opening. An intake mechanism mounting body disposed in an intake portion provided in the case,
An intake port provided in the intake mechanism mount,
A check valve type shutter which is disposed on the inner side of the case of the inlet port and performs intake from the outside of the case and closes the inlet port when an internal short-
Wherein at least one side of the check valve shutter is disposed between the check valve shutter and the conductive portion in the case, And a legged frame body longer than the valve-type shutter. The method of claim 4,
Wherein the grounding frame body is formed in a wire shape to reduce the flow velocity resistance against propagation of the high-temperature high-pressure gas at the time of an internal short-circuit fault. The method according to claim 4 or 5,
Wherein the grounding frame body is arranged so as to be orthogonal to the conductive portion in the case. The method according to claim 4 or 5,
Wherein the grounding frame body is arranged so as to be parallel to the conductive portion in the case.

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